CN110602875A

CN110602875A - Grating-shaped PCB and manufacturing method thereof

Info

Publication number: CN110602875A
Application number: CN201911002266.9A
Authority: CN
Inventors: 杨维娟; 孙伟
Original assignee: Nanjing Lizhen Information Technology Co Ltd
Current assignee: Nanjing Lizhen Information Technology Co Ltd
Priority date: 2019-10-21
Filing date: 2019-10-21
Publication date: 2019-12-20
Anticipated expiration: 2039-10-21

Abstract

The invention discloses a grid-shaped PCB (printed circuit board), which is vertically arranged between inner and outer double-layer glass of a window, and comprises a PCB, copper foils arranged on the front and back sides of the PCB, a central upright post and copper cylinders, wherein the front and back sides of the PCB are provided with a positive copper foil and a negative copper foil, the central upright post is arranged at the middle position of the PCB, the upper end and the lower end of the PCB are respectively provided with a positive copper cylinder and a negative copper cylinder, the back side of the PCB is inlaid with LED lamp beads, the positive and negative electrodes of the LED lamp beads are gathered on the corresponding copper cylinders at the lower ends through the corresponding copper foils, the front surface of the PCB is inlaid with a plurality of monocrystalline silicon solar panels, and the solar panels are connected in series through the copper foils. The invention also discloses a manufacturing method of the grid-shaped PCB. The whole PCB board is surrounded and is circular motion around central column, and the opening angle of PCB board is controllable like this, can adjust how much through the sunshine of window like this, and the solar cell panel on the PCB board can generate electricity, provides partial indoor lighting power consumption through solar cell panel, guarantees indoor light demand.

Description

Grating-shaped PCB and manufacturing method thereof

Technical Field

The invention relates to a PCB (printed circuit board), in particular to a grid-shaped PCB.

The invention also relates to a manufacturing method of the grid-shaped PCB.

Background

The window is the indispensable part in the building now, and the demand for indoor daylighting on the one hand, and on the other hand is indoor ventilation use, moreover because life comfort level and pleasing to the eye demand, the ratio of taking up of window and wall is bigger and bigger.

Because the window is a weak part of the building envelope structure, the window can cause a large amount of cold and heat loss due to factors such as solar radiation heat, indoor and outdoor temperature difference heat transfer, air circulation and the like.

At present, the amount of sunlight entering a room is adjusted through a window, the external shutter is mainly used, a certain shading function is achieved through the opening and closing functions of the blades, but the function is limited, and illumination cannot be provided for the room.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a grid-shaped PCB. The PCB board rotates, can adjust the sunshine through the window like this, and the PCB board has solar cell panel, still can provide partial indoor lighting power consumption.

The invention also provides a manufacturing method of the grid-shaped PCB.

The invention provides the following technical scheme:

the utility model provides a grid form PCB board, the vertical inside and outside double-deck glass of arranging of grid form PCB board between the window, grid form PCB board includes the PCB board, sets up copper foil, center pillar and the copper cylinder at PCB board positive and negative both sides, the positive and negative both sides of PCB board have anodal copper foil and negative copper foil, PCB board intermediate position is provided with the center pillar, and upper end, the lower extreme of PCB board all are provided with anodal copper cylinder, negative copper cylinder, the reverse side of PCB board is inlayed and is had LED lamp pearl, LED lamp pearl just, the negative pole collects the copper cylinder (anodal copper cylinder, negative copper cylinder) that the lower extreme corresponds through corresponding copper foil on, the positive surface mosaic of PCB board has a plurality of monocrystalline silicon solar cell panels, concatenates through the copper foil between each solar cell panel.

Further, the PCB board adopts multilayer structure, comprises a single-sided board and a double-sided board, single-sided board and double-sided board are fixed through the bonding, the one side outside to the room above the single-sided board, open the front of PCB board promptly has a plurality of square holes, and the embedding has solar cell panel in every square hole, anodal copper foil is arranged to the square hole side, and anodal copper foil is connected with the positive pole on solar cell panel surface, assembles anodal copper cylinder after connecting, and the solar cell panel in all square holes concatenates through the negative copper foil, assembles negative copper cylinder after concatenating.

Furthermore, the single-sided board is attached to one side of the double-sided board through a bonding agent, the copper foil on one side of the double-sided board penetrates through the middle part of the square hole of the single-sided board and is connected with the negative electrode of the solar cell panel in the square hole, and the negative electrodes of all the solar cell panels are connected in series; and a plurality of LED lamp beads are distributed on the other side of the double-sided board.

Furthermore, the anode of the LED lamp bead is collected on the lower-end anode copper cylinder through the anode copper foil, and the cathode of the LED lamp bead is collected on the lower-end cathode copper cylinder through the cathode copper foil.

The invention relates to a method for manufacturing a grid-shaped PCB (printed circuit board), which adopts a rigid substrate material to manufacture the grid-shaped PCB and comprises the following steps:

(1) copper foils (a positive copper foil and a negative copper foil) are used for respectively making positive and negative circuits on the front and back surfaces of the grid-shaped PCB, stainless steel thin round steel is used in the middle of the PCB, namely a central upright post is used as a support post, and the whole PCB moves circularly around the central upright post;

(2) two copper cylinders are welded at the upper end of the PCB, and two copper cylinders are also welded at the lower end of the PCB and are respectively a positive copper cylinder and a negative copper cylinder;

(3) the PCB board is fixed by a single panel and a double-sided board through bonding;

(4) the solar cell panel comprises a single-face plate, a PCB and a plurality of solar cell panels, wherein the face, facing outdoors, of the single-face plate, namely the front face of the PCB is provided with a plurality of square holes, a single crystal silicon solar cell panel is embedded into each square hole, the side face of each square hole is provided with a positive copper foil, the positive copper foil is connected with the positive electrode on the surface of the solar cell panel and then gathered to a positive copper cylinder, and the solar cell panels in all the square holes are connected in series through negative copper foils and then gathered to a negative;

(5) the single-sided board is adhered to one side of the double-sided board through a binder, the copper foil on one side of the double-sided board penetrates through the middle part of the square hole of the single-sided board and is connected with the negative electrodes of the solar panels in the square hole, and the negative electrodes of all the solar panels are connected in series;

(6) the LED lamp beads are distributed on the other side of the double-sided board, wherein the other side of the double-sided board is opposite to the indoor side (namely the reverse side of the PCB), the positive pole of each LED lamp bead is collected on the lower-end positive copper cylinder through the positive copper foil, and the negative pole of each LED lamp bead is collected on the lower-end negative copper cylinder through the negative copper foil.

(7) A solar cell management circuit board is arranged on one side of a solar cell panel of the PCB, and the power generation condition of all the solar cell panels is detected.

(8) LED lamp pearl one side of PCB board sets up LED management circuit board, can adjust LED lamp pearl quantity and luminance.

Compared with the prior art, the invention has the beneficial effects that: the centre of PCB board sets up the center pillar, and whole PCB board is around the center pillar and is circular motion, and the opening angle of PCB board is controllable like this, and what can adjust the sunshine through the window like this, and the positive and negative of PCB board sets up solar cell panel and LED lamp pearl respectively, and solar cell panel energy power generation provides partial indoor lighting power consumption through solar cell panel, guarantees the indoor light demand.

Drawings

FIG. 1 is a reverse side view of a PCB board of the present invention.

FIG. 2 is a front view of a PCB board of the present invention.

FIG. 3 is a schematic side view of a PCB of the present invention.

In the figure: 1. the solar cell module comprises a PCB (printed circuit board), 11, a single panel, 12, a double-panel, 13, a solar cell management circuit board, 14 and an LED management circuit board; 2. a central upright post; 3. a positive electrode copper foil; 4. a negative copper foil; 5. a positive copper cylinder; 6. a negative copper cylinder; 7. LED lamp beads; 8. a solar panel; 9. square hole, 10, inner and outer double-layer glass of window.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the grid-shaped PCB of the present invention is vertically disposed between an inner layer glass 10 and an outer layer glass 10 of a window, and the grid-shaped PCB includes a PCB 1, copper foils disposed on both sides of the PCB 1, a central pillar 2 and a copper cylinder, the both sides of the PCB 1 have a positive copper foil 3 and a negative copper foil 4, the central pillar 2 is disposed in the middle of the PCB 1, the upper end and the lower end of the PCB 1 are both provided with a positive copper cylinder 5 and a negative copper cylinder 6, the reverse side of the PCB 1 is embedded with an LED lamp bead 7, the positive and negative electrodes of the LED lamp bead 7 are collected to the copper cylinders (the positive copper cylinder 5 and the negative copper cylinder 6) corresponding to the lower end through the corresponding copper foils, the front surface of the PCB 1 is embedded with a plurality of single crystal silicon solar panels 8, and the solar panels 8 are connected in series through the copper foils.

PCB board 1 adopts multilayer structure, constitute by a single face board 11 and a double sided board 12, single face board 11 and double sided board 12 are fixed through the bonding, the outdoor one side of above-mentioned orientation on single face board 11, a plurality of square holes 9 have been arranged in PCB board 1's front promptly, the embedding has solar cell panel 8 in every square hole 9, anodal copper foil 3 is arranged to square hole 9 side, anodal copper foil 3 and the anodal connection on solar cell panel 8 surface, assemble anodal copper cylinder 5 after the connection, solar cell panel 8 in all square holes 9 concatenates through negative copper foil 4, assemble negative copper cylinder 6 after concatenating.

The single-sided board 11 is adhered to one side of the double-sided board 12 through a bonding agent, a copper foil on one side of the double-sided board 12 penetrates through the middle part of the square hole 9 of the single-sided board 11 and is connected with the negative electrode of the solar cell panel 8 in the square hole 9, and the negative electrodes of all the solar cell panels 8 are connected in series; and a plurality of LED lamp beads 7 are distributed on the other side of the double-sided board 12.

The positive pole of the LED lamp bead 7 is collected to the lower end positive pole copper cylinder 5 through the positive copper foil 3, and the negative pole of the LED lamp bead 7 is collected to the lower end negative pole copper cylinder 6 through the negative copper foil 4.

The manufacturing method of the grid-shaped PCB adopts rigid substrate materials to manufacture the grid-shaped PCB, and comprises the following steps:

(1) copper foils (a positive copper foil 3 and a negative copper foil 4) are used for respectively making positive and negative circuits on the front and back surfaces of the PCB 1, stainless steel thin round steel is used in the middle of the PCB 1, namely the central upright post 2 is used as a supporting post, and the whole PCB 1 makes circular motion around the central upright post 2;

(2) two copper cylinders are welded at the upper end of the PCB 1, and two copper cylinders are also welded at the lower end of the PCB 1 and respectively comprise a positive copper cylinder 5 and a negative copper cylinder 6;

(3) the PCB board 1 is fixed by a single panel 11 and a double-sided board 12 through adhesion;

(4) the solar cell panel comprises a single-face plate 11, a plurality of square holes 9 are formed in the outdoor side of the single-face plate 11, namely the front side of a PCB, a monocrystalline silicon solar cell panel 8 is embedded in each square hole 9, an anode copper foil 3 is arranged on the side face of each square hole 9, the anode copper foil 3 is connected with the anode of the surface of each solar cell panel 8 and then gathered to an anode copper cylinder 5, and the solar cell panels 8 in all the square holes 9 are connected in series through cathode copper foils 4 and then gathered to a cathode copper cylinder 6;

the thickness of the single panel is basically consistent with that of the solar panel. The solar panel thickness is about 200 μm.

(5) The single-sided board 11 is adhered to one side of the double-sided board 12 through a bonding agent, a copper foil on one side of the double-sided board 12 penetrates through the middle part of the square hole 9 of the single-sided board 11 and is connected with the negative electrodes of the solar cell panels 8 in the square hole 9, and the negative electrodes of all the solar cell panels 8 are connected in series;

(6) the indoor one side (being the reverse side of PCB board) of facing above the double sided board 12, the opposite side that also is the double sided board distributes and has a plurality of LED lamp pearls 7, and LED lamp pearl 7 positive pole collects on the anodal copper cylinder 5 of lower extreme through anodal copper foil 3, and LED lamp pearl 7 negative pole collects on the lower extreme negative pole copper cylinder 6 through negative pole copper foil 4 equally.

The positive and negative copper cylinders are connected to the indoor power supply part through a window frame connecting device. After the LED lamp beads are welded, the whole LED lamp beads are subjected to plastic package by using the light-diffusing film.

(7) A management circuit is arranged on one side of the solar cell panel 8 of the PCB 1, the management circuit is a solar cell management circuit board 13, the management circuit detects the power generation condition of all the solar cell panels, when a fault occurs, an alarm is output, and meanwhile, the generated energy and the current can be counted.

(8) LED lamp pearl 7 one side of PCB board 1 sets up management circuit, and this management circuit is LED management circuit board 14, and this management circuit adopts ZIGBEE communication mode and adjusts the controller communication, can adjust LED lamp pearl quantity and luminance.

A hexagonal hole is vertically formed in the middle of the PCB, a hexagonal stainless steel bar (central upright post) penetrates through the middle of the PCB, the diameter of the stainless steel bar is 2 mm, rounding processing is performed on the upper end and the lower end of the stainless steel bar, rotation resistance is small, clamping grooves are formed in the stainless steel bar up and down, and the PCB is fixed.

The thickness of the PCB is 3 mm, the middle part of the PCB penetrates through the stainless steel bar and is thickened, and the thickness is not more than 4 mm.

Positive and negative copper cylinder of PCB board upper end and lower extreme all polish the processing, reduce the resistance when guaranteeing to rotate.

The centre of PCB board 1 sets up center pillar 2, whole PCB board 1 is circular motion around center pillar 2, PCB board 1's opening angle is controllable like this, the book curtain ware on the window passes through the stay cord and drives every PCB board 1 and rotate around center pillar 2, it is how much to adjust the sunshine through the window, and PCB board 1's positive and negative sets up solar cell panel 8 and LED lamp pearl 7 respectively, solar cell panel 8 energy power generation, provide partial indoor lighting power consumption through solar cell panel 8, guarantee the indoor light demand.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Grid form PCB board, its characterized in that: the grid-shaped PCB is vertically arranged between the inner layer glass and the outer layer glass of the window, the grid-shaped PCB comprises a PCB (1), copper foils arranged on the front surface and the back surface of the PCB (1), a central upright post (2) and a copper cylinder, the front and back surfaces of the PCB (1) are provided with a positive copper foil (3) and a negative copper foil (4), the central upright post (2) is arranged at the middle position of the PCB (1), the upper end and the lower end of the PCB (1) are both provided with a positive copper cylinder (5) and a negative copper cylinder (6), LED lamp beads (7) are inlaid on the reverse side of the PCB (1), the positive and negative electrodes of the LED lamp beads (7) are collected on the positive electrode copper cylinder (5) and the negative electrode copper cylinder (6) corresponding to the lower ends through corresponding copper foils, a plurality of single crystal silicon solar panels (8) are embedded on the front surface of the PCB (1), and the solar panels (8) are connected in series through copper foils.

2. The grid-like PCB board as recited in claim 1, wherein: PCB board (1) adopts multilayer structure, comprises a single-sided board (11) and a double-sided board (12), single-sided board (11) and double-sided board (12) are fixed through the bonding, the one side outdoor on single-sided board (11), a plurality of square holes (9) have been arranged in the front of PCB board (1) promptly, and the embedding has solar cell panel (8) in every square hole (9), anodal copper foil (3) is arranged to square hole (9) side, anodal connection on anodal copper foil (3) and solar cell panel (8) surface assembles anodal copper cylinder (5) after connecting, and solar cell panel (8) in all square holes (9) concatenate through negative pole copper foil (4), assembles negative pole copper cylinder (6) after concatenating.

3. The grid-like PCB board as recited in claim 1, wherein: the single-sided board (11) is adhered to one side of the double-sided board (12) through a bonding agent, a copper foil on one side of the double-sided board (12) penetrates through the middle part of the square hole (9) of the single-sided board (11) and is connected with the negative electrode of the solar cell panel (8) in the square hole (9), and the negative electrodes of all the solar cell panels (8) are connected in series; and a plurality of LED lamp beads (7) are distributed on the other side of the double-sided board (12).

4. The grid-like PCB board as recited in claim 1, wherein: the LED lamp bead is characterized in that the anode of the LED lamp bead (7) is collected to the lower-end anode copper cylinder (5) through the anode copper foil (3), and the cathode of the LED lamp bead (7) is collected to the lower-end cathode copper cylinder (6) through the cathode copper foil (4).

5. The manufacturing method of the grid-shaped PCB is characterized by comprising the following steps of: the method for manufacturing the grid-shaped PCB by adopting the rigid substrate material comprises the following steps:

(1) copper foils are used for making positive and negative electrode circuits on the front and back surfaces of the PCB (1) respectively, stainless steel thin round steel is used in the middle of the PCB (1), namely, a central upright post (2) is used as a support post, and the whole PCB (1) makes circular motion around the central upright post (2);

(2) two copper cylinders are welded at the upper end of the PCB (1), and two copper cylinders are also welded at the lower end of the PCB (1) and respectively comprise a positive copper cylinder (5) and a negative copper cylinder (6);

(3) the PCB (1) is fixed by a single panel (11) and a double-sided board (12) through adhesion;

(4) the solar cell panel comprises a single-face plate (11), a plurality of square holes (9) are formed in the surface, facing outdoors, of the single-face plate (11), a single-crystal silicon solar cell panel (8) is embedded into each square hole (9), an anode copper foil (3) is arranged on the side surface of each square hole (9), the anode copper foil (3) is connected with the anode of the surface of the solar cell panel (8) and is gathered to an anode copper cylinder (5) after being connected, the solar cell panels (8) in all the square holes (9) are connected in series through cathode copper foils (4) and are gathered to a cathode copper cylinder (6) after being connected in series;

(5) the single-sided board (11) is adhered to one side of the double-sided board (12) through a bonding agent, a copper foil on one side of the double-sided board (12) penetrates through the middle part of the square hole (9) of the single-sided board (11) and is connected with the negative electrode of the solar cell panel (8) in the square hole (9), and the negative electrodes of all the solar cell panels (8) are connected in series;

(6) the indoor one side of facing above double sided board (12), the opposite side of double sided board (12) distributes and has a plurality of LED lamp pearl (7), and LED lamp pearl (7) positive pole is collected on lower extreme anodal copper cylinder (5) through anodal copper foil (3), and LED lamp pearl (7) negative pole is collected on lower extreme negative pole copper cylinder (6) through negative pole copper foil (4) equally.

(7) A solar cell management circuit board (13) is arranged on one side of a solar cell panel (8) of the PCB (1) and used for detecting the power generation conditions of all the solar cell panels;

(8) LED management circuit board (14) are arranged on one side of LED lamp beads (7) of PCB board (1), and quantity and brightness of LED lamp beads are adjusted.